21st week of 2013 patent applcation highlights part 22 |
Patent application number | Title | Published |
20130127384 | METHOD OF CONTROLLING A BRUSHLESS MOTOR - A method of controlling a brushless motor that includes storing a lookup table of control values, periodically obtaining a speed-adjusted control value, and exciting a phase winding of the motor. The speed-adjusted control value is then used to define the phase and/or length of excitation. Obtaining the speed-adjusted control value includes measuring the speed of the motor, increasing or decreasing a speed-adjust variable in the event that the measured speed is greater or less than a threshold, selecting a control value from the lookup table using the measured speed, and adjusting the selected control value using the speed-adjust variable to obtain the speed-adjusted control value. Additionally, a control system that implements the method, and a motor assembly that incorporates the brushless motor and the control system. | 2013-05-23 |
20130127385 | Sample and Hold Time Stamp for Sensing Zero Crossing of Back Electromotive Force in 3-Phase Brushless DC Motors - A microcontroller determines the position of the rotor of a brushless, direct-current motor by determining the time of zero crossing of back electromotive force (EMF) emanating from the non-driven phase winding. The zero crossing point is determined by interpolating voltage differentials that are time stamped. Each voltage differential is the difference between the phase voltage of the phase winding and the motor neutral point voltage. The time of zero crossing is determined without using a comparator and without interrupting the processor at each zero crossing point. The processor interpolates the time of zero crossing independently of when the zero crossing point occurs. A hold signal conductor is connected both to a sample and hold circuit and to the load input lead of a time stamp register. The microcontroller simultaneously captures a phase voltage in the sample and hold circuit and a timer count in the time stamp register. | 2013-05-23 |
20130127386 | CONTROL UNIT FOR AN ELECTRIC MOTOR, IN PARTICULAR FORA FAN MOTOR - The invention provides a control unit for at least one electric motor, wherein the control unit performs open-loop or closed-loop control of the motor speed of the electric motor in such a way that in the case of control values in specific ranges which are typical of a fault when the setpoint value is being predefined, such a fault being, for example, a line break, a voltage failure or a short circuit, the control unit drives the motor with a predefined setpoint value which differs from the current control value. | 2013-05-23 |
20130127387 | Method for operating a motor control unit for a drive system - A method for operating a drive motor of a drive system, including the following: providing a control variable, which is ascertained as a function of one or multiple state variable(s) of the drive system and as a function of a default variable, to an output stage for operating the drive motor; reading the control variable previously provided to the output stage back from the output stage to obtain a read-back control variable; ascertaining a back-calculated torque from the read-back control variable; comparing the back-calculated torque and a predefined monitoring torque; and providing the control variable or an alternative control variable ascertained from the monitoring torque to the output stage as a function of a result of the comparison for the purpose of operating the drive motor. | 2013-05-23 |
20130127388 | Systems and Methods for Downhole Power Factor Correction - Systems and methods for processing power provided to downhole electrical systems such as electric submersible pump motors to increase the power factor of the supplied power. In one embodiment, a system comprises a downhole motor and a power factor corrector. The motor may be coupled to drive an electric submersible pump. The power factor corrector is configured to receive input power, process the received input power using one or more capacitive electrical components and thereby impart a capacitive phase shift between the voltage and the current of the received input power. The processed output power is provided to the downhole motor, which consumes the processed output power with a power factor which is greater than it would have been in the absence of the correction. | 2013-05-23 |
20130127389 | METHOD FOR THE ACTIVATION OF A WINDSCREEN WIPER MOTOR - A method for the activation of a windscreen wiper motor is disclosed, in which the motor is connected to a wiper blade by a drive shaft, which moves the wiper blade between two reversal points of a wiping field in differing movement direction, where the rotation speed and direction of the motor, or the speed of the wiper blade, is detected by a sensor device and is supplied to a control device as an input value. The motor, before reaching the respective reversal point, is switched off, whereupon the drive shaft continues to rotate further by a castor angle up to a standstill, and the wiper blade moves further by a trailing distance. The actual speed of the wiper blade is compared at the switch-off time with a nominal speed, and the motor is operated further for a period of time when the comparison results in a difference in values. | 2013-05-23 |
20130127390 | System, Method and Apparatus for Computing, Monitoring, Measuring, Optimizing and Allocating Power and Energy for a Rod Pumping System - A system and methods are provided for controlling a motor of a rod pumping system using previous RPMs of the motor and predicting an RPM of the motor; correcting a power factor of a motor of a rod pumping system; allocating energy consumption and allocating energy generation for a set of wells connected to an electricity meter using an amount of energy generated by each well; and generating an alert if a set of data is beyond a threshold for the set of data. | 2013-05-23 |
20130127391 | ELECTRICAL MACHINES - An ac synchronous electrical machine includes a stator and a multi-phase stator winding that defines a plurality of stator poles. The stator winding has two or more coil groups, each coil group including a plurality of coils for each phase that are received in winding slots in the stator. The stator winding is connected to a power source/sink. The coil groups are connected in series and each coil group is connected to a power source/sink by a respective switch ( | 2013-05-23 |
20130127392 | Systems and Methods for transformation and transportation of energy storage devices - Disclosed herein are methods and system for managing distribution and transformation of energy storage devices. Also provided are computer-implemented methods for managing the distribution and transformation of energy storage devices. Also provided are mailers for distribution and transportation of energy storage devices; and charging units to transform energy storage devices from substantially uncharged to substantially charged state. | 2013-05-23 |
20130127393 | Wind Operated Electricity Generating System - A wind operated electricity generating system for decreasing wind resistance of a moving vehicle and harvesting energy from the air encountered, comprises a box portion having a front opening, a rear opening and an inside compartment. When a vehicle is moving, air is funneled through the increasingly narrow inside compartment. The air is directed through a series of vanes to a plurality of blade of a multiple turbines that are thereby caused to rotate. The turbines are in turn mechanically connected to electromechanical generators, which generate electricity to be supplied to the vehicle. The electricity generated is stored in battery packs that may be utilized for propulsion of the vehicle. The electromechanical generator speed is controlled under a safe rotational speed by a braking mechanism attached to a shaft of the electromechanical generator. | 2013-05-23 |
20130127394 | INTEGRATED CONTROL SYSTEM FOR POWER GENERATION DEVICES - An integrated control system for power generation devices that is configured for generating, charging and consuming the power with the most appropriate distribution ratio, by monitoring an internal impedance thereof and of the battery in real time, and then controlling the impedance-matching units so that each internal impedance of the multiple power generation modules becomes almost equal to that of the battery, for drawing the maximum efficiency out of the modules. | 2013-05-23 |
20130127395 | SOLAR STATION FOR CHARGING ELECTRIC VEHICLES - The present invention answers the need for the existence of a network for charging electric vehicles (EV), particularly with regard to the so-called fast charging (20 to 30 minutes). Therefore, this station is intended for, inter alia, parking areas of public and private buildings, and fossil fuels service stations, such places where the slow charging is not very viable, since this type of charging (6 to 8 hours) will be done mostly at night. | 2013-05-23 |
20130127396 | Electrical Energy Store and Method for Closed-Loop Control of Such Energy Store - In installations for generating alternative energy it is necessary due to the fluctuating availability of the alternative energy source to provide electrical energy stores which can temporarily store excess energy or can compensate for energy bottlenecks. The present invention relates to such an electrical energy store having a bidirectional DC/DC converter (DC) with a low-voltage side and a high-voltage side which can be connected via the high-voltage side to a DC bus ( | 2013-05-23 |
20130127397 | Combined Primary And Secondary Units - A system has a primary unit ( | 2013-05-23 |
20130127398 | CIRCUITS AND METHODS FOR HEATING BATTERIES IN SERIES USING RESONANCE COMPONENTS IN SERIES - Certain embodiments of the present invention provide a battery heating circuit, wherein: the battery comprises a first battery E | 2013-05-23 |
20130127399 | CELL BALANCING SYSTEM AND METHOD - A system and method may identifying an overcharged cell from among a plurality of cells of a battery pack. An undercharged cell may be identified from among any of the plurality of cells of the battery pack. A switch may be operated to connect the overcharged cell to the undercharged cell via a direct current (DC)-DC converter. The DC-DC converter may be operated to transfer charge from the overcharged cell to the undercharged cell. | 2013-05-23 |
20130127400 | ELECTRIC VEHICLE AND CHARGING CONTROL METHOD FOR AUXILIARY BATTERY THEREOF - The present invention relates to an electric vehicle and a charging control method for an auxiliary battery of the electric vehicle. According to the present invention, the electric vehicle comprises: a high-voltage battery which drives the electric vehicle; a plurality of electric field loads; the auxiliary battery which supplies driving power to the plurality of electric field loads; a first voltage detection unit which detects an output voltage of an auxiliary battery side; a converter which performs a PWM switching to convert the voltage of the high-voltage battery into a voltage required in the electric field loads; a plurality of relays; a power relay assembly (PRA) which is switched to supply the energy of the high-voltage battery to the converter according to whether or not the plurality of relays are in operation; and a vehicle control module (VCM) which controls the driving of the power relay assembly, wherein the converter includes a converter control unit, which sends a driving instruction signal requesting the vehicle control module to drive the power relay assembly depending on a magnitude change of the output voltage of the auxiliary battery side. Accordingly, discharging of the auxiliary battery in a starting-off state is prevented, which makes it possible to stably operate the electric vehicle system. | 2013-05-23 |
20130127401 | ENVIRONMENTALLY FRIENDLY PLUG-IN ADAPTER - A plug-in adapter includes a transformer having a primary winding capable of being coupled to an AC power source and a secondary winding configured to provide an output charging voltage. The plug-in adapter also includes a voltage sensing connection configured to sense an external device voltage. Additionally, the plug-in adapter includes an adapter isolation switch coupled between the primary winding and the AC power source and configured to close by application of the external device voltage thereby providing the output charging voltage, wherein removal of the external device voltage opens the adapter isolation switch thereby substantially isolating the primary winding from the AC voltage source. In other aspects, a method of operating a plug-in adapter and a plug-in adapter system are provided. | 2013-05-23 |
20130127402 | METHOD AND SYSTEM FOR ATTACHMENT AND REMOVAL INDICATION FOR BATTERY CHARGING DEVICES - Embodiments of the present disclosure provide a method and system for indicating an attachment and removal for a portable device. The method includes the steps of attaching the portable device to a charging system, delivering current to the portable device from the charging system, the delivered current is limited based on the portable device, replicating the current flowing through the first switch at a second switch, generating a voltage based on the current flowing through the second switch, comparing the voltage with a pre-defined threshold voltage, and indicating at least one of attachment or removal for the portable device based on the comparison. | 2013-05-23 |
20130127403 | CHARGING BASE WITH DRAINAGE FEATURES - A charging base has a bottom case, a printed circuit board (PCB) and a top case. The bottom case includes at least one drainage hole. The PCB is mounted in the bottom case and includes a mounting hole, a positioning block and charging terminals. The positioning block is attached to the PCB and has through holes. The charging terminals are secured to the positioning block and have apertures. The top case covers the bottom case and includes terminal holes and a top enclosed wall. The top enclosed wall is secured around the positioning block. Therefore, when water accidentally enters the charging base via the terminal holes, the water will sequentially flow through the apertures of the charging terminals, the through holes of the positioning block and the mounting hole of the PCB and subsequently drain out of the drainage hole of the bottom case. | 2013-05-23 |
20130127404 | Apparatus and Method for Inductive Charging - An apparatus including an inductive charging system and at least one wireless communication system. The inductive charging system is configured to charge a rechargeable battery. The inductive charging system has an induction coil. The at least one wireless communication system is configured to communicate with a device. The wireless communication system includes at least a portion of the induction coil for transmitting and/or receiving a wireless signal at the induction coil, or for generating a communication electromagnetic field at the induction coil. Thus, both the inductive charging system and the wireless communication system include at least a portion of the induction coil as a common component for both of the systems. | 2013-05-23 |
20130127405 | WIRELESS CHARGING SYSTEM AND APPARATUS, AND CONTROL METHOD THEREOF - The invention provides a wireless charging system and a wireless charging apparatus for wirelessly charging a receiving device, and provides a method of controlling the wireless charging apparatus. The wireless charging apparatus comprises a power supply for providing a power voltage; a primary charging core; a switch module for changing the power voltage to an input voltage connected the power supply and the primary charging core so that the primary charging core has a primary current according to the power voltage supplied from the power supply; and a controller connected to the switch module and the primary charging core for measuring the primary current and for outputting a control signal for controlling the power voltage provided from the power supply. | 2013-05-23 |
20130127406 | METHOD AND SYSTEM FOR INDUCTIVELY CHARGING AN ELECTRONIC DEVICE - An apparatus and method for inductively charging an electronic device are disclosed herein. The apparatus comprises a transmitter coil and a controller. The transmitter coil includes a configurable inductive portion. The controller is configured to receive configuration information that is indicative of a receiver coil configuration in the electronic device. Based on the received configuration information, the controller configures the transmitter coil to form an active coil to substantially match the configuration of the receiver coil. | 2013-05-23 |
20130127407 | Wireless Charging System and Related Method for Transmitting Data - The invention discloses a wireless charging system for transmitting data. The wireless charging system includes a charging device for wirelessly transmitting a source signal and adjusting a current corresponding to the source signal according to a transmitted datum, and a receiving device which includes a first coil for receiving the source signal according to the electromagnetic effect and generating a corresponding AC current signal, and an output module for obtaining the transmitted datum according to the AC current signal. | 2013-05-23 |
20130127408 | PORTABLE ELECTRONIC DEVICE AND WIRELESS CHARGING DEVICE - A portable electronic device includes a housing and at least one charging module installed in the housing. The at least one charging module includes a magnetic induction block and a coil unit positioned beside the magnetic induction block. The coil unit includes a base block and an induction coil coiled around the base block. The induction coil is configured for generating induction current under the action of a charging magnetic filed outside the housing. The magnetic induction block enhances the magnetic filed intensity acting on the induction coil. | 2013-05-23 |
20130127409 | POWER TRANSMISSION SYSTEM, VEHICLE AND POWER SUPPLY FACILITY - Power is transmitted from a power supply facility to a vehicle in a contact-less manner. A control device detects a distance between a power transmission unit of the power supply facility and a power receiving unit of the vehicle. A display unit displays a graphic in a display pattern which varies in accordance with the distance detected by the detection unit. | 2013-05-23 |
20130127410 | APPARATUS AND METHOD FOR CONTROLLING CHARGING POWER OF WIRELESS POWER RECEIVER - In an apparatus for adjusting charging power of a wireless power receiver, when one or more wireless power receivers require charging, it is determined whether the sum of required charging powers required by the one or more wireless power receivers exceeds maximum supplied power provided by a wireless power transmitter. When a result indicates that the sum exceeds the maximum supplied power, a control operation is performed to adjust the required charging power of each wireless power receiver. Therefore, it is possible to wirelessly charge each wireless power receiver without interruption. | 2013-05-23 |
20130127411 | COIL UNIT, NON-CONTACT POWER TRANSMITTING APPARATUS, NON-CONTACT POWER RECEIVING APPARATUS, VEHICLE, AND NON-CONTACT POWER SUPPLY SYSTEM - A coil unit includes a second resonance coil that has a plurality of unit coils and performs at least one of transmission and reception of electric power to and from a first resonance coil spaced apart from the second resonance coil via electromagnetic resonance with the first resonance coil. The directions of magnetic fields formed by the unit coils are the same. | 2013-05-23 |
20130127412 | SYSTEM AND METHOD FOR CONTROLLING EXCHANGE OF CURRENT - A system for charging an electrically powered vehicle comprises a DC battery; and a current exchange controller. The current exchange controller is configured for receiving a supply current from an off-board power source and determining a desired current exchange characteristic. The current exchange controller is also configured for determining a modulation scheme for providing an exchange current that exhibits the desired current exchange characteristic; and modulating the exchange current in accordance with the modulation scheme so as to deliver an exchange current exhibiting the desired current exchange characteristic. The modulation scheme is configured to meet one or more criteria based on annoyance. | 2013-05-23 |
20130127413 | ELECTRIC CHARGING SYSTEM AND ELECTRIC VEHICLE - There are provided an electric charging system and an electric vehicle. The electric vehicle has a battery and is provided with power receiving terminals for charging. A converter is provided between the battery and the power receiving terminals, and relays are provided between the converter and the power receiving terminals. An electric charger is provided with a power converter that outputs charging power and power supply terminals connected to the power converter. When the interruption of charging power supply from the power converter fails during charging, the converter is actuated and the stored electric power of the battery is boosted and supplied to the relays. | 2013-05-23 |
20130127414 | ELECTRIC CHARGING SYSTEM AND ELECTRIC VEHICLE - In an electric charging system (and electric vehicle), Electric-charger-side data Ds are calculated by subjecting an electric-charger-side supplied voltage Vs to filter processing, and electric-vehicle-side data Dr are calculated by subjecting an electric-vehicle-side received voltage Vr to filter processing. A reference point α | 2013-05-23 |
20130127415 | ELECTRIC CHARGING SYSTEM AND ELECTRIC CHARGER - There is provided an electric charging system in which an electric charger and an electric vehicle are connected by a charging cable. The electric charger calculates a voltage drop amount in the charging cable on the basis of a supplied current at the electric charger side and an electric resistance of the charging cable. The electric charger also compares a determination voltage with a supplied voltage at the electric charger side and determines that a battery has been charged to a fully charged state when the supplied voltage reaches the determination voltage. The determination voltage used for such full charge determination is updated by adding the voltage drop amount to a basic determination voltage that is set in advance. | 2013-05-23 |
20130127416 | SYSTEM FOR INTERFACING WITH AN ELECTRIC VEHICLE CHARGING STATION AND METHOD OF USING AND PROVIDING THE SAME - Some embodiments include a system for interfacing with an electric vehicle charging station and method of using and providing the same as disclosed herein. Other embodiments of related systems and methods are also disclosed. | 2013-05-23 |
20130127417 | CONTROL SYSTEM FOR ELECTRIC VEHICLE CHARGING STATIONS AND METHOD OF USING THE SAME - Some embodiments include a control system for electric vehicle charging stations and method of using the same as disclosed herein. Other embodiments of related systems and methods are also disclosed. | 2013-05-23 |
20130127418 | ELECTRIC VEHICLE AND CHARGING CONTROL METHOD FOR BATTERY THEREOF - The present invention relates to an electric vehicle and a charging control method for a battery thereof. An electric vehicle having a high-voltage battery which supplies driving power to a plurality of electric field loads comprises: a charger which is connected with an external power source to charge the high-voltage battery; a vehicle control module (VCM) which controls connection between the charger and the high-voltage battery; a battery management system (BMS) manages the state of the high-voltage battery according to the charging of the high-voltage battery or the supply of operating power from the high-voltage battery; and a voltage detection unit which detects and reports the charged state of the high-voltage battery to the battery management system, wherein the charger comprises a charger control unit, which controls to perform a power saving mode to minimize power consumption by interrupting the transmission of a driving signal for driving of the vehicle control module and battery management system when the charging of the high-voltage battery has been completed. Accordingly, even though the electric vehicle is left as it is after having been fully charged, the high-voltage is automatically charged, which makes it possible to stably operate the electric vehicle system. | 2013-05-23 |
20130127419 | METHOD AND SYSTEM FOR BALANCING ELECTRICAL CELLS - The present invention relates to a system for charge balancing over a plurality of rechargeable energy storage devices coupled in series, said system comprising a plurality of balancing units each assigned to one of the rechargeable energy storage devices, an AC signal generator for providing an AC signal to the plurality of balancing units, and a capacitive coupling between the AC signal generator and each of the plurality of balancing units for common mode rejection. A first balancing unit comprises a plurality of switches for transferring, on the one hand, charge from the AC signal generator or from an energy storage device assigned to another balancing unit for charging the energy storage device assigned to the first balancing unit, and, on the other hand, for transferring charge to the AC signal generator or to an energy storage device assigned to another balancing unit for discharging the energy storage device assigned to the first balancing unit. | 2013-05-23 |
20130127420 | BATTERY TEMPERATURE ADJUSTING SYSTEM AND OPERATING METHOD THEREOF - The present invention relates to a battery temperature adjusting system including: a battery unit having a heating pad; a leading wire connected to the battery unit; and a current induction unit surrounding the leading wire, wherein the current induction unit is electrically connected to the heating pad. The battery temperature adjusting system according to the present invention generates the induced current by applying the current induction unit surrounding the leading wire connected to the battery unit, and increases the temperature of the battery unit by supplying the induced current to the heating pad, thereby obtaining a desired battery output in a low-temperature region even without the use of an external power source. | 2013-05-23 |
20130127421 | ARRANGEMENT AND METHOD FOR SAFELY DISCHARING AN ENERGY ACCUMULATOR - Energy storage arrangement for safely discharging an energy accumulator with electric poles via which the energy accumulator can be at least discharged, an electrically conductive conductor medium in the form of a fluid or fine-grained bulk material or a mixture of both, a reservoir container which is filled with the conductor medium, a collecting container which is provided for accommodating the conductor medium and which encloses the electric poles of the energy accumulator, and a triggerable discharging device, by means of which, in the case of triggering, conductor medium is discharged from the reservoir container into the collecting container such that the electric poles of the energy accumulator are connected to one another in an electrically conductive fashion via the conductor medium. | 2013-05-23 |
20130127422 | BATTERY CONTROL DEVICE - A battery control device is provided that uses a discharge to adjust the capacitance of cells that form a bipolar battery and calculates the voltage increase value of the remaining cells that do not discharge to adjust capacitance if one or more cells, among all of the cells that form the bipolar battery, are discharged to adjust capacitance in a battery control device that controls voltage dispersion or volume dispersion between cells that form the bipolar battery; and setting the general discharge value when there is a discharge to adjust capacitance on the basis of the result of the voltage increase value calculation. | 2013-05-23 |
20130127423 | BATTERY PACK AND METHOD OF CONTROLLING CHARGE-AND-DISCHARGE OF BATTERY PACK BY ITS THERMOELECTRIC PROPERTY - A battery pack and a method for controlling charge-and-discharge of the battery pack by its thermoelectric property are provided, in which the battery pack has a plurality of thermal regions divided by different ranges of temperature. The battery pack includes a plurality of parallel-connected battery groups and a plurality of variable resistances. The parallel-connected battery groups are located in the thermal regions respectively, and each of the parallel-connected battery groups includes batteries connected in parallel. The variable resistances are disposed between two parallel-connected battery groups. | 2013-05-23 |
20130127424 | DISCHARGE SYSTEM - A discharge system includes: a secondary battery pack; a discharge device; and an application software running on a personal computer connected to the discharge device. The application software receives total battery voltage information, temperature information, and over-discharge information of the secondary battery pack through the discharge device, determines deterioration of the secondary battery pack based on the informations, and displays results of the determination. Further, the application software instructs the discharge device to terminate the discharge when the temperature in the pack exceeds a predetermined value and/or an over-discharge is detected. | 2013-05-23 |
20130127425 | ENERGY DISTRIBUTION DEVICE FOR DISTRIBUTING AN ENERGY SIGNAL WITHIN A COMMERCIAL ESTABLISHMENT OR BUILDING - A master beam commercial module U-form energy distributor can wirelessly recharge all electronic devices within a given range. The energy distributor can include a hollow center with a plurality of U-form Wi-Fi/Bluetooth/energy distributors and a disc base. The device can include a company logo, if desire, on the base and a power level indicator. The device can have a port for a power cord and a telephone, CAT-5 or USB type jack, for example, for Wi-Fi/energy input. The master beam commercial module energy distributor can generate a sufficient amount of energy for schools, coffee ships and other such commercial establishments and buildings. To achieve this energy transmission, there can be about ten power output transmitters per side of each of the plurality of U-form energy distributors and typically about four such U-shaped energy distributors can be used, resulting in about 80 power outputs. | 2013-05-23 |
20130127426 | METHOD AND CONTROL DEVICE FOR CONTROLLING POWER FLOW WITHIN A DC POWER TRANSMISSION NETWORK - A method for controlling power flow within a DC power flow within a DC power transmission network includes two or more interconnected converter stations. The method includes the steps of: establishing a common feedback signal (U | 2013-05-23 |
20130127427 | REGULATOR, ELECTRONIC DEVICE INCLUDING THE REGULATOR - A regulator includes an output circuit receives a feedback voltage and provides an output current based on the feedback voltage, an output voltage of the regulator is based on the output current; a first MOSFET coupled to the output circuit and receives the output voltage of the regulator; a second MOSFET coupled to the first MOSFET provides the feedback voltage based on, at least in part, the output voltage; a current sink coupled to the first MOSFET and the second MOSFET and receive jointly a current from the first MOSFET and a current from the second MOSFET; a current source coupled to the second MOSFET and provides the second MOSFET with the current, a connection of the current source and the second MOSFET is further coupled to the output circuit and provides the feedback voltage based on, at least in part, the current in the second MOSFET. | 2013-05-23 |
20130127428 | DC-DC CONVERTER - A DC-DC converter includes a first switching element and a second switching element; a pulse signal generating circuit which generates a pulse signal used to control on/off periods of the switching elements; a limiting circuit which generates a minimum pulse width signal; a selector configured to select one of the pulse signal and the minimum pulse width signal, and a driver circuit switches the first and second switching element and a reverse current detecting circuit detects a reverse current. The driver circuit controls the first or second switching element, when the reverse current is detected. The selector selects the pulse signal when the reverse current is not detected, and selects the minimum pulse width signal when the reverse current is detected. | 2013-05-23 |
20130127429 | Soft-stop Device and Power Converter Using the Same - A soft-stop device for a power converter includes a first signal terminal for receiving a first signal corresponding to an output voltage of the power converter; a second signal terminal for receiving a shutdown signal for turning off the power converter; a discharge switch, coupled between the first signal terminal and a grounding terminal, for controlling an electrical connection between the first signal terminal and the grounding terminal according to a control signal; a sample-and-hold unit, for sampling the first signal received by the first signal terminal when the shutdown signal is received by the second signal terminal, to generate a shutdown reference voltage; and a shutdown control unit, for generating the control signal according to the first signal and the shutdown reference voltage. | 2013-05-23 |
20130127430 | Power Regulator for Driving Pulse Width Modulator - A voltage regulator that modulates the switching of a switching circuit to regulate the output voltage level supplied to a system. The regulator uses a comparator circuit to compare a reference signal to an analog signal derived from the output voltage of the regulator, and outputs a binary signal based on the comparison. The regulator may use a counter circuit that interrogates the binary signal from the comparator circuit and generates a counter signal proportional to, for example, the duration of the binary signal when it stays in one of the two binary states. The regulator then uses a trigger circuit that generates a signal based on the counter signal to effectuate the modulation of the switching of the switching circuit. The reference signal may be modified by a hysteresis level adjuster to force a triggering event at the switching circuit. | 2013-05-23 |
20130127431 | SWITCHED-MODE POWER SUPPLY STARTUP CIRCUIT, METHOD, AND SYSTEM INCORPORATING SAME - A startup circuit delivers regulated startup current to a control IC in a switched-mode power supply (SMPS) system, and automatically disconnects the startup current when the SMPS Control IC starts switching the transformer or inductor used as the energy storage element in the SMPS system. Disconnection of the startup current may be triggered by detecting a time-varying voltage waveform on an accessible node in the SMPS system, or by detecting an increased current consumption by the SMPS Control IC, without requiring any ground reference to the SMPS Control IC, nor without requiring any logic signals generated by the SMPS Control IC. This provides for rapid and predictable startup of an SMPS Control IC and reduced power loss once the SMPS Control IC is operational, and is independent of the operating voltages of the SMPS control IC, and independent of the particular control scheme and switch topology of the SMPS system. | 2013-05-23 |
20130127432 | SWITCHING POWER SUPPLY DEVICE - An object of the present invention is to achieve the reduction of EMI, the improvement of conversion efficiency, and simplification of the input filter. Provided is a switching power supply device that comprises: a chopper circuit that turns on/off the passage of a current to an inductor by means of a switching element; and a switching control circuit that switches the switching element so that an input voltage and an input current have the same phase and a similar shape. The switching control circuit is configured to switch the switching element at a switching frequency that is proportional to an input voltage dependent term of a formula that expresses a third harmonic component of ripples of the current flowing to the inductor. | 2013-05-23 |
20130127433 | METHOD OF OPERATING VOLTAGE REGULATOR - A method of operating a voltage regulator circuit includes generating a control signal by an amplifier of the voltage regulator circuit. The control signal is generated based on a reference signal at an inverting input of the amplifier and a feedback signal at a non-inverting input of the amplifier. A driving current flowing toward an output node of the voltage regulator circuit is generated by a driver responsive to the control signal, and the driver is coupled between a first power node and the output node. The feedback signal is generated responsive to a voltage level at the output node. A transistor, coupled between the output node and a second power node, is caused to operate in saturation mode during a period while the voltage regulator circuit is operating. | 2013-05-23 |
20130127434 | Coupled Inductor Arrays And Associated Methods - A coupled inductor array includes a magnetic core and N windings, where N is an integer greater than one. The magnetic core has opposing first and second sides, and a linear separation distance between the first and second sides defines a length of the magnetic core. The N windings pass at least partially through the magnetic core in the lengthwise direction, and each of the N windings forms a loop in the magnetic core around a respective winding axis. Each winding axis is generally perpendicular to the lengthwise direction and parallel to but offset from each other winding axis. Each winding has opposing first and second ends extending towards at least the first and second sides of the magnetic core, respectively. One possible application of the coupled inductor array is in a multi-phase switching power converter. | 2013-05-23 |
20130127435 | STANDALONE SOLAR ENERGY CONVERSION SYSTEM WITH MAXIMUM POWER POINT TRACING AND METHOD OF OPERATING THE SAME - A standalone solar energy conversion system includes a first DC-DC conversion apparatus, a second DC-DC conversion apparatus, and a control apparatus. The first DC-DC conversion apparatus receives a DC voltage and converts a voltage level of the DC voltage to provide a capacitance voltage. The second DC-DC conversion apparatus receives the capacitance voltage and converts a voltage level of the capacitance voltage. The control apparatus includes a first comparison unit and a second comparison unit. The capacitance voltage is compared to a first capacitance voltage command and a second capacitance voltage command through the first comparison unit and the second comparison unit, respectively, thus controlling output powers of the first DC-DC conversion apparatus and the second DC-DC conversion apparatus. | 2013-05-23 |
20130127436 | APPARATUS OF SUPPLYING POWER AND METHOD THEREFOR - A power supply apparatus and a method for supplying power are provided. The method includes: providing a first power supply for outputting a first power signal; providing a second first power supply for outputting a second power signal; and selectively charging the second power supply by using the first power supply. | 2013-05-23 |
20130127437 | CONSTANT INPUT CURRENT FILTER FOR POWER SUPPLIES AND RELATED SYSTEM AND METHOD - A system includes a capacitor and a current source configured to draw a constant input current from a power source and to generate an output current. The current source includes an n-type field effect transistor that is biased to operate as a constant current source. The current source is configured to provide the output current to the capacitor and charge the capacitor during a first time period associated with operation of a load. The current source is also configured to provide the output current to the load and the capacitor is configured to provide an additional current to the load during a second time period associated with operation of the load. The load could represent an electronic device having a time-varying output power characteristic, such as a wireless radio. | 2013-05-23 |
20130127438 | PHOTOCOUPLER OUTPUT SIGNAL RECEIVING CIRCUIT - In aspects of the invention, a photocoupler output signal receiving circuit includes a first constant current circuit, connected between an input terminal and the high potential side of a direct current power source, that discharges current, a second constant current circuit, connected between the input terminal and the low potential side of the direct current power source, that takes in current, and switching elements that operate the first and second constant current circuits in a complementary way, wherein the switching elements are operated so that current is taken in by the second constant current circuit after a photocoupler is turned on, and are operated so that current is discharged by the first constant current circuit after the photocoupler is turned off, and a discharge current value in a current discharge period is reduced after a certain period elapses from the start of discharging. | 2013-05-23 |
20130127439 | VOLTAGE ADJUSTMENT CIRCUIT - A voltage adjustment circuit includes a programmable resistor, a keyboard, and a microprocessor control unit (MCU). The programmable resistor includes an input connected to a first power supply to receive a first voltage. The MCU is connected to the keyboard and the programmable resistor. A preset voltage is set through the keyboard. The MCU adjusts a resistance of the programmable resistor according to the preset voltage, such that the programmable resistor outputs a second voltage. | 2013-05-23 |
20130127440 | PASS THROUGH DEVICE FOR NON-CONTACT VOLTAGE DETECTORS - A device for allowing an electrical worker to use a non-contact voltage detector to check for the presence or absence of voltage inside a closed electrical panel is provided. The device includes an assembly having a front side and an opposite back side, a plurality of posts extending outwardly from the back side of and configured to hold wires in a fixed position within the closed electrical panel, and a plurality of indentations in the front side which form protrusions on the back side and are positioned to allow for positioning the non-contact voltage detector proximate the wires for testing with the non-contact voltage detector. | 2013-05-23 |
20130127441 | APPARATUS AND METHOD FOR ON-CHIP SAMPLING OF DYNAMIC IR VOLTAGE DROP - Test points on an integrated circuit chip, especially points subject to IR voltage drop along power supply rails, are coupled to comparators controlled by an automatic test controller, all included on the chip. Each test point can have one or more comparators and one or more reference voltages over a testing range. A change of state at a comparator sets a latch that is read and reset by the on-chip automatic test controller during test intervals. The automatic test controller can coordinate with external automatic test equipment that applies stimulus signals to the chip during testing. The greatest voltage drop during a test interval is determined from the latched output of the switched comparator coupled to the lowest reference voltage. The setting and resetting of the latch can be gated through a selectable delay so as to discriminate for excursions that persist for a longer or shorter time. | 2013-05-23 |
20130127442 | ELECTRONIC CIRCUIT COMPONENT AUTHENTICITY DETERMINATION METHOD - This invention provides an electronic circuit component authenticity determination method capable of determining whether an electronic circuit component is a component manufactured by an authorized manufacturer. The electronic circuit component is operated under a predetermined condition at the time of manufacturing or initialization of the electronic circuit component. The waveform of power consumption or an electromagnetic wave at the time of the operation is measured and stored as first waveform data. An authenticity determination target electronic circuit component is operated under the predetermined condition. The waveform of power consumption or an electromagnetic wave is measured and temporarily stored as second waveform data. The stored first waveform data is compared with the second waveform data. It is determined that the electronic circuit component is a genuine when the waveform data match. It is determined that the electronic circuit component is a counterfeit product when the waveform data are different. | 2013-05-23 |
20130127443 | ELECTRIC POWER MANAGEMENT APPARATUS AND ELECTRIC POWER MANAGEMENT METHOD - Disclosed herein is an electric power management apparatus including: an electric power measurement block configured to measure an electric power consumption amount of an electric power consumer; and an electric power comparison block configured to make a comparison between an electric power consumption amount measured by the electric power measurement block and an electric power demand forecast amount indicative of a forecast amount of an electric power demand of the electric power consumer | 2013-05-23 |
20130127444 | APPARATUS AND METHOD FOR DISTINGUISHING BETWEEN TACK-WELDING AND WELDING - An apparatus and method for distinguishing between tack-welding and welding are provided. The apparatus for distinguishing between tack-welding and welding includes: a current sensor configured to detect arc current of a welder; and a distinguish control unit configured to distinguish whether a welding operation performed by the welder is tack-welding or welding based on the arc current detected by the current sensor for a predefined period of time. Accordingly, the amount of work performed by a welding worker can be fairly and accurately evaluated. | 2013-05-23 |
20130127445 | TEST FIXTURE WITH LOAD - A test fixture with a load for measuring an output voltage of a connecting port with a voltmeter at full load is illustrated. The test fixture includes a main body, a plug comprising a first pin and a second pin for respectively contacting the two lines of the connecting port. A first contact connected to the first pin through a first wire, a second contact connected to the second pin through a second wire, and a load connected between the first wire and the second wire. The plug is connected to one end of the main body and capable of being inserted into the connecting port. | 2013-05-23 |
20130127446 | CURRENT MEASURING APPARATUS - The present invention discloses a current measuring apparatus and associated networking apparatus, the current measuring apparatus comprising: a consumer unit comprising at least one interrupting device operative to interrupt a mains electricity supply when an excess current flows, such as a fuse box, a mains current circuit in the mains electricity supply path; and a measurement circuit that is operative to measure a voltage drop across the mains current circuit. | 2013-05-23 |
20130127447 | ELECTRICAL PARAMETER DETECTION DEVICE FOR PERIPHERAL COMPONENT INTERCONNECT DEVICES - An electrical parameter detection device is configured for detecting electrical parameters of a peripheral component interconnect (PCI) connector including a plurality of power pins. The electrical parameter detection device includes a processor module, a first detection module, and a second detection module. The processor module continuously detects voltage values of electric potentials provided by each of the power pins of the PCI connector using the first detection module, and determines time sequences of the electric potentials according to the voltage values of the electric potentials. Furthermore, the processor module detects the amount of power provided by each of the power pins of the PCI connector using the second detection module. | 2013-05-23 |
20130127448 | Smart Electromagnetic Sensor Array - An array of induction coil sensors is used to monitor, from multiple locations, the strength of a magnetic field generated by a wire to be traced. The magnetic field strength data is used to determine the location and orientation of the wire. In one embodiment, the sensor array is incorporated into a test instrument. The screen of the test instrument provides a graphical user interface that shows the orientation of the wire and indicates the location of the wire relative to the instrument. | 2013-05-23 |
20130127449 | POSITION SENSOR, ACTUATOR-SENSOR DEVICE AND METHOD FOR THE INDUCTIVE DETECTION OF A POSITION - A position sensor for the inductive detection of a position of a first component comprising a reference coil with respect to a second component comprising a reference body. A control and processing unit of the position sensor is coupled to the reference coil and is designed for issuing an output signal generating a current impulse in the reference coil. In addition, the control and processing unit is designed for evaluation of an oscillation generated by the current impulse in the reference coil as an input signal indicating the position of the reference body. | 2013-05-23 |
20130127450 | METHOD AND DEVICE FOR DETECTING THE COUPLING OF PARTS TO A MACHINE - A coupled state versus a decoupled state of a part relative to a machine, in particular of a coordinate measuring device or a machine tool, is determined. The part to be coupled can be moved toward a contact region of the machine in an axial direction in order to establish the coupled state, and can be moved away from the contact region in the axial direction in order to establish the decoupled state. A magnetoresistive sensor is used to generate a sensor signal that depends on an axial position of the part and a further sensor signal that depends on a rotational position of the part relative to the machine. The sensor signals are evaluated and the result is used to determine whether the part is coupled to the contact region of the machine and/or whether the part is decoupled from the contact region. | 2013-05-23 |
20130127451 | VARIABLE RELUCTANCE RESOLVER - The present invention relates to a resolver of an electric driving motor for vehicle which comprises a rotor, a stator comprising a stator main body which encircles the rotor and teeth which extend from the stator main body to be wound by a coil, a terminal module comprising a terminal end which contacts the coil for an electric connection and a terminal main body which supports the terminal end, and a connector module comprising a connector main body which is detachably coupled to the terminal main body and a lead line which is connected to an outer device and supported by the connector main body and which contacts the terminal end for an electric connection if the connector main body is coupled to the terminal main body, thus simplifying manufacturing process and repairing process and reducing cost. | 2013-05-23 |
20130127452 | REMOTE ENVIRONMENT INSPECTION APPARATUS AND METHOD - An inspection tool for the non-destructive testing of a test component made of an electrically conductive material is described. The inspection tool employs movably mounted permanent magnets, which provides a means for generating a variable DC magnetic field within the test component, and eddy current probes so as to provide a means for performing a partial saturation eddy current test upon the test component. The eddy current probe preferably comprises an integrated magnetic field sensor which increases the accuracy and flexibility of the modes of operation of the described apparatus and methods. The described apparatus and methods are particularly suited for the inspection of tubular components that are often remotely located within the oil and gas exploration and production industries. | 2013-05-23 |
20130127453 | ELECTRONIC DEVICE COMPRISING HALL EFFECT REGION WITH THREE CONTACTS - An electronic device is disclosed as a part of a magnetic field sensor or a mechanical stress sensor. The electronic device includes a Hall effect region, a first contact (temporarily functioning as a first supply contact), a second contact (second supply contact), and a third contact (temporarily functioning as a first sense contact) that are arranged in or on a surface of the Hall effect region. The first contact and the third contact are arranged in a substantially symmetrical manner to each other with respect to the second contact. An electrical current distribution within the Hall effect region is influenced by a physical quantity (e.g. magnetic field strength or mechanical stress) to be measured. A sense signal tapped at the third contact is a function of the current distribution, the sense signal thus being indicative of the physical quantity. A corresponding sensing method using the electronic device is also disclosed. | 2013-05-23 |
20130127454 | MAGNETIC FIELD SENSOR INCLUDING AN ANISOTROPIC MAGNETORESISTIVE MAGNETIC SENSOR AND A HALL MAGNETIC SENSOR - A magnetic field sensor, including a Hall magnetic sensor, formed within a first die and configured to detect a first magnetic field, and a first anisotropic magnetoresistive magnetic sensor, having a first anisotropic magnetoresistive transducer, formed within a second die and configured to generate an electrical measurement quantity as a function of a second magnetic field. An electronic reading circuit formed within the first die, is electrically connected to the first anisotropic magnetoresistive transducer, and provides a first measure indicating the second magnetic field, on the basis of the electrical measurement quantity. The first and second dice are fixed with respect to one another and have main surfaces parallel to the same reference plane. The first magnetic field being oriented in a first direction perpendicular to the reference plane and the second magnetic field being oriented in a second direction parallel to the reference plane. | 2013-05-23 |
20130127455 | MAGNETIC FIELD VECTOR SENSOR - A magnetic field vector sensor includes a substrate parallel to a plane, a support mobile relative to it and rotatable about a vertical rotation axis perpendicular to it, a magnetic field source generating a field having a moment in a non-perpendicular direction, the source being fixed to the support with no degree-of-freedom to exert torque on the support when a field to be measured is present, the field being non-collinear with the moment, a transducer to convert torque exerted on the support into a field amplitude of a component of the field along a measurement axis in the plane, wherein the source comprises a magnetostrictive permanent magnet for generating the field having a moment whose direction varies with stress on the magnet, and wherein the sensor further comprises a controllable device to reversibly modify the moment direction, and a stress generator to vary stress and hence moment direction. | 2013-05-23 |
20130127456 | MAGNETIC BALANCE TYPE CURRENT SENSOR - A magnetic balance type current sensor includes: a magnetic detection bridge circuit of which output varies due to an induced magnetic field from a current wire; a magnetic field attenuation unit that attenuates the induced magnetic field that acts on a magnetoresistive effect element; and a feedback coil which generates a cancel magnetic field that cancels the induced magnetic field in accordance with the output of the magnetic detection bridge circuit, and through which a current corresponding to the current to be measured flows when it enters a balanced state in which the cancel magnetic field and the induced magnetic field cancel each other, wherein the feedback coil is provided in such a manner that a direction of the cancel magnetic field that acts on the magnetic field attenuation unit is opposite to a direction of the induced magnetic field that acts on the magnetic field attenuation unit. | 2013-05-23 |
20130127457 | MAGNETIC SUBSTANCE DETECTION DEVICE - The invention is related to a magnetic substance detection device for detecting a magnetic substance, including: a magnetoresistive sensor arranged in the middle of a movement path of the magnetic substance; and a lower magnet in which a south pole and a north pole are arrayed along the movement direction of the magnetic substance; and a upper magnet in which a north pole and a south pole are arrayed along the movement direction of the magnetic substance. The lower and upper magnets are arranged with the movement path of the magnetic substance interposed so that the south pole of the lower magnet and the north pole of the upper magnet are opposed to each other, and the north pole of the lower magnet and the south pole of the upper magnet are opposed to each other, whereby the magnetic substance can be detected with high accuracy. | 2013-05-23 |
20130127458 | MAGNETIC GRADIOMETER AND MAGNETIC SENSING METHOD - A gradiometer in which a probe beam for reading sequentially passes through two magnetic field measurement regions to obtain signals according to magnetic flux densities of the respective regions is formed using an optically pumped magnetometer. In particular, in a gradiometer using a high sensitivity optically pumped magnetometer, a geometric arrangement enabling obtainment of a large signal from a dipole moment as a signal source is defined. | 2013-05-23 |
20130127459 | MAGNETIC RESONANCE IMAGING METHOD AND APPARATUS - A magnetic resonance imaging (MRI) method includes applying a radio-frequency (RF) pulse to a subject including different tissues all including a same type of atomic nuclei to rotate magnetization directions of the atomic nuclei of the different tissues; applying an RF pulse sequence to the subject based on the magnetization directions of the atomic nuclei of the different tissues; and obtaining magnetic resonance signals from the different tissues in response to the RF pulse sequence. | 2013-05-23 |
20130127460 | MR IMAGING USING NAVIGATORS - The invention relates to a method of magnetic resonance (MR) imaging of at least a portion of a body ( | 2013-05-23 |
20130127461 | MRT System, Receive Apparatus for an MRT System and Method for Obtaining an MR Signal in an MRT System - A receive apparatus in a strong magnetic alternating field is disposed in a magnetic resonance tomography (MRT) system. The MRT system includes at least one receive apparatus for a magnetic resonance high frequency (MR-HF) signal. The receive apparatus includes a receive coil element for receiving the MR-HF signal, an optical modulator, in which an electrical control input is coupled to the receive coil element, and an optical output for outputting an output signal of the modulator. The optical modulator forms an optical demodulation device for the MR-HF signal. The optical modulator is coupled to a laser light source via an optical input that is configured to generate a laser light. A light intensity of the laser light varies periodically with a predetermined frequency. | 2013-05-23 |
20130127462 | Method for Operating a Receiving Device for Magnetic Resonance Image Signals of a Body - A receiving device for magnetic resonance (MR) image signals of a body is operated in an MR system such that for at least one coil element of the receiving device, a space domain, in which a spatial sensitivity of the coil element satisfies a predetermined criterion, is determined. A center frequency and a bandwidth of the MR image signal radiated by the body in the space domain are determined for the space domain. A receive path disposed downstream of the coil element is parameterized for operation at the determined center frequency and with the determined bandwidth. | 2013-05-23 |
20130127463 | Magnetic Resonance Antenna Arrangement and Magnetic Resonance System - A magnetic resonance antenna arrangement includes at least one first antenna group including individually-controllable first antenna conductor loops and a second antenna group adjacent to the first antenna group. The second antenna group includes individually-controllable, longitudinal second antenna elements. The first antenna conductor loops essentially extend in a first extending surface and are disposed in the first extending surface in a first direction in a row behind one another. The longitudinal second antenna elements extend with the longitudinal axes transverse to the first direction disposed in parallel next to one another in a second extending surface that runs essentially in parallel to the first extending surface. Each of the second antenna elements are coupled at first and second end areas to a conductive element to form a second conductor loop with the conductive element. The second antenna elements are disposed to overlap an adjacent first antenna loop in each case. | 2013-05-23 |
20130127464 | BIOLOGICAL DETECTOR AND METHOD - A biological detector includes a conduit for receiving a fluid containing one or more magnetic nanoparticle-labeled, biological objects to be detected and one or more permanent magnets or electromagnet for establishing a low magnetic field in which the conduit is disposed. A microcoil is disposed proximate the conduit for energization at a frequency that permits detection by NMR spectroscopy of whether the one or more magnetically-labeled biological objects is/are present in the fluid. | 2013-05-23 |
20130127465 | APPARATUS AND METHOD FOR SYNCHRONIZING CLOCKS BETWEEN DEVICES OF MAGNETIC RESONANCE IMAGING (MRI) SYSTEM - A method of synchronizing clocks between a central controlling unit and a radio frequency (RF) coil which are wirelessly connected to each other in a magnetic resonance imaging (MRI) system, which includes receiving a first clock from the central controlling unit, synchronizing a second clock of the RF coil with a received first clock, and discontinuing the receiving of the first clock from the central controlling unit when the second clock is synchronized with the first clock. | 2013-05-23 |
20130127466 | SYSTEMS AND METHODS FOR ASSESSMENT OF OXYGENATION - A scanner for assessing localized oxygenation of a desired region of interest includes a handheld housing having a proximal end and a distal end. A resonator coil is disposed within the housing and also disposed adjacent the distal end of the housing. The resonator coil is configured to both excite and read paramagnetic materials. A magnet is disposed within the housing and also disposed adjacent the distal end of the housing. The magnet is configured to provide a substantially uniform magnetic field over the desired region of interest. The scanner is configured to use electron paramagnetic resonance to assess localized oxygenation in the desired region. | 2013-05-23 |
20130127467 | MAGNETIC RESONANCE IMAGING APPARATUS AND MAGNETIC RESONANCE IMAGING METHOD - According to one embodiment, a magnetic resonance imaging apparatus includes a mode switching part and an imaging system. The mode switching part is configured to put a circuit system consuming a power into a shutdown state when a first trigger has been detected and put the circuit system being the shutdown state into a startup state when a second trigger has been detected. The first trigger shows that an imaging does not start for a certain period. The second trigger shows that the imaging starts. The imaging system is configured to perform the imaging by using the circuit system being the startup state. | 2013-05-23 |
20130127468 | Gradient-Independent Shim Coil for a Local Coil of a Magnetic Resonance Device - A shim coil device for installation and/or arrangement within a local coil of a magnetic resonance device is provided. The shim coil device includes at least one shim coil formed by at least one conductor loop, and at least one compensation coil formed by at least one conductor loop. The at least one shim coil and the at least one compensation coil are arranged in a same coil plane. An overall arrangement of the at least one shim coil and the at least one compensation coil is symmetrical about a first central axis and a second central axis. The first central axis and the second central axis are perpendicular to each other and lie in the coil plane. An overall induction surface is enclosed by the at least one conductor loop of the at least one compensation coil corresponding to an overall induction surface enclosed by the at least one conductor loop of the at least one shim coil. | 2013-05-23 |
20130127469 | Local Coil - A local coil for an imaging system includes an anterior torso part and a posterior torso part that are detachably connected to one another with a fastening device. | 2013-05-23 |
20130127470 | BURIED OBJECT LOCATOR APPARATUS AND SYSTEMS - Buried object locators including various antenna configurations and safety features are disclosed. In one embodiment a locator includes a body, one or more antenna nodes coupled to the body, and a safety light assembly disposed on or within the body. The locator may further include a surface light assembly and camera and/or one or more GPS and/or ISM antennas and receiver/sensor modules. The antenna nodes may be gradient and/or dodecahedral antenna nodes. | 2013-05-23 |
20130127471 | ELECTROMAGNETIC SENSOR CABLE AND ELECTRICAL CONFIGURATION THEREFOR - A marine electromagnetic sensor cable system includes a first sensor cable subsystem including at least a first sensor cable segment. The first sensor cable segment includes a plurality of spaced apart electrodes which electrically contact a body of water when the first sensor cable segment is immersed therein, and an electrical conductor coupled to each electrode, each electrical conductor extending from one longitudinal end of the sensor cable segment to the other. The system includes a first signal processing module electrically coupled to a longitudinal end of the first sensor cable segment, and including a voltage measuring circuit electrically connected between two or more electrodes from the first plurality of electrodes. Marine electromagnetic surveys are conducted using the marine electromagnetic sensor cable system. | 2013-05-23 |
20130127472 | ORGANIC LIGHT EMITTING DISPLAY APPARATUS AND METHOD OF INSPECTING PATTERNS OF THE ORGANIC LIGHT EMITTING DISPLAY APPARATUS - An organic light emitting display apparatus includes: a substrate on which a display area and a non-display area are defined; a first electrode disposed over the display area; an intermediate layer that is disposed over the first electrode and includes an organic emissive layer; a second electrode disposed over the intermediate layer; and a plurality of detection patterns displaced over the non-display area, each of which includes a first electrically conductive pattern layer formed of the same material as the first electrode and a second electrically conductive pattern layer that is formed over the first electrically conductive pattern layer. | 2013-05-23 |
20130127473 | SECONDARY CELL AND METHOD FOR TESTING SECONDARY CELL - The present invention provides a secondary cell, wherein an area having generated therein a phenomenon due to an internal short-circuit can be freely changed, a change in the secondary cell due to the generation of the internal short-circuit is correctly grasped, and safety of the secondary cell can be accurately evaluated when the internal short-circuit is generated. An internal short-circuit test method for the secondary cell is also provided. In the present invention, the secondary cell is configured by disposing: an electrode group, which is formed by winding or laminating a positive electrode plate, a negative electrode plate, and an insulating layer disposed between the positive electrode plate and the negative electrode plate; and a heat generating body, which is disposed between the positive electrode plate and the insulating layer or between the negative electrode plate and the insulating layer. | 2013-05-23 |
20130127474 | CONTROL PROCESSING METHOD OF ENERGY-SAVING CELL AND BASE STATION - Disclosed are a control processing method of an energy-saving cell and a base station. The method comprises: a base station to which a basic coverage cell belongs judging whether a current load state is greater than or equal to a preset energy saving threshold, where more cells are required to participate in a service when the current load state is greater than or equal to the preset energy saving threshold, and the basic coverage cell refers to a cell unable to be turned off or enter an energy saving state in order to ensure continuity; when the current load state is greater than or equal to the preset energy saving threshold, the base station to which the basic coverage cell belongs determining a distribution state of a current service load of a serving cell; the base station to which the basic coverage cell belongs determining, according to information of an energy-saving cell and the distribution state of the current service load, the energy-saving cell to be deactivated, the energy-saving cell being a cell capable of entering the energy saving state; and the base station to which the basic coverage cell belongs deactivating the determined energy-saving cell. The present invention provides a solution for selectively activating and deactivating an energy-saving cell among different systems, and can optimize the existing energy saving technology, and improve the energy utilization rate of the entire network. | 2013-05-23 |
20130127475 | SYSTEM AND METHOD FOR CALCULATING AND DISPLAYING AVERAGE AUXILIARY POWER IN A VEHICLE - A system and method for calculating and displaying average auxiliary power use in a vehicle is herein provided. The vehicle includes one or more batteries for powering auxiliary electrical devices, an auxiliary battery controller, a display for displaying both instantaneous and average auxiliary power consumption, and an electric motor. A main battery powers the drive motor and supplies power to the auxiliary loads. An auxiliary battery is connected to the main battery via a DC/DC converter and also supplies power to the auxiliary loads. A sensor detects instantaneous auxiliary power usage from each of the auxiliary loads. The instantaneous auxiliary power data from the sensor is averaged to calculate and display the average auxiliary power usage from each of the auxiliary loads. The vehicle operator is able to identify and manage how auxiliary load power consumption affects overall power consumption of both batteries during operation of the vehicle. | 2013-05-23 |
20130127476 | SYSTEM, METHOD AND APPARATUS FOR DETECTING DC BIAS IN A PLASMA PROCESSING CHAMBER - A system and method of measuring a self bias DC voltage on a semiconductor wafer in a plasma chamber includes generating a plasma between a top electrode and a top surface of an electrostatic chuck in a plasma chamber including applying one or more RF signals to one or both of the top electrode and electrostatic chuck. The wafer is supported on the top surface of an electrostatic chuck. The self bias DC voltage is developed on the wafer. A vibrating electrode is oscillated to produce a variable capacitance, the vibrating electrode is located in the electrostatic chuck. An electrical current is developed in a sensor circuit. An output voltage is measured across a sampling resistor in the sensor circuit, a second DC potential is applied to the vibrating electrode to nullify the output voltage. The second DC potential is equal to the self bias DC voltage on the wafer. | 2013-05-23 |
20130127477 | STIMULUS RESPONSIVE NANOPARTICLES - Disclosed are various embodiments of methods and systems related to stimulus responsive nanoparticles. In one embodiment includes a stimulus responsive nanoparticle system, the system includes a first electrode, a second electrode, and a plurality of elongated electro-responsive nanoparticles dispersed between the first and second electrodes, the plurality of electro-responsive nanorods configured to respond to an electric field established between the first and second electrodes. | 2013-05-23 |
20130127478 | System And Method For Measuring Retentate In Filters - A system and method for determining loading of a filter having a first dielectric constant with a material having a different dielectric constant, is disclosed. The filter is contained within a metallic container forming a microwave cavity, and microwave or RF energy is created within the cavity and changes in the cavity microwave response are monitored. The changes in cavity microwave response are related to filter loading. In a preferred embodiment, the microwave energy includes multiple cavity modes thereby allowing determination of spatial distribution of the contaminant material loading. In one embodiment, the microwave cavity response includes a shift in frequency of a resonant mode. Alternatively, the microwave cavity response includes a shift in quality factor Q of a resonant mode. The microwave cavity response may include a shift in amplitude or peak width of the microwave's signal at resonance. | 2013-05-23 |
20130127479 | CAPACITOR SENSORS AND SYSTEM AND METHODS FOR NON-CONTACT OBJECT DETECTION - A non-contact object detection system includes a capacitor sensor and a control system, the control system providing a AES (Adaptive Excitation Signal) to the capacitor sensor, the AES (Adaptive Excitation Signal) configured according to an environment in which the capacitor sensor is deployed, the AES (Adaptive Excitation Signal) configured to produce a threshold voltage from the capacitor sensor to the control system in the environment when an object is not in a detection area of the capacitor sensor. | 2013-05-23 |
20130127480 | SINGLE SUBSTRATE CAPACITIVE TOUCH SENSOR WITH INTEGRATED DIELECTRIC AND GROUND SHIELD LAYER - A compact touch sensor and a touch sensor stack are disclosed. The touch sensor can include a touch sensor circuit integrated with a ground layer on a single substrate. The touch sensor circuit can include two sets of conductive traces separated by a first insulation layer. A second insulation layer can be deposited over the top set of conductive traces of the touch sensor circuit. One or more vias can be included within the first insulation layer to route one or more conductive traces through the first insulation layer. One or more vias can also be included within the substrate to couple one or more conductive traces to the grounding layer. The touch sensor can be laminated to a cover material to form the touch sensor stack. Processes for making the touch sensor and touch sensor stack are also disclosed. | 2013-05-23 |
20130127481 | Cable Resistance Determination in High-Power PoE Networks - An exemplary implementation of the present disclosure is a power sourcing equipment (PSE) for determining a resistance of a powered cable. The PSE includes a first supply voltage to cause a first current to flow through first and second output terminals of the PSE. The PSE also includes a second supply voltage to cause a second current to flow through third and fourth output terminals of the PSE. The PSE further includes a current modulation circuit offsetting the second current from the first current to create an offset voltage between the second and the first supply voltages to determine the resistance of the powered cable. The current modulation circuit can offset the second current from the first current utilizing a variable resistance switch to adjust the second current. | 2013-05-23 |
20130127482 | BURN-IN TEST APPARATUS WITH FUNCTION OF ENERGY RECYCLING - A new electrical recycling apparatus for AC/DC power converter is provided to recycle the electricity in direct current to the input ends of the power converter to be tested to save a stage of power converter and avoid the complicated standard and requirement that feed the electricity to the mains supply. | 2013-05-23 |
20130127483 | Radiator Module System for Automatic Test Equipment - A radiator module system for automatic test equipment, wherein the automatic test equipment comprises at least one test arm, with the front end of the test arm being configured with a test head, and a closed-loop circulating cooling device is installed on the test arm. The closed-loop circulating cooling device includes a conduit which is in contact with the cooling device, internally contains an working fluid and is connected to the test head, a cooling device, a set of fans and a driving source for driving the working fluid. The closed-loop circulating cooling device can operate to circulate and exchange heat energy generated by a device under test (DUT) tightly stressed by downward pressure applied with the test arm, and brings up airflows by means of the fans to perform heat exchange on the cooling device thereby dissipating the generated heat energy. | 2013-05-23 |